In a study appearing in Nature Catalysis, researchers from the Inorganic Chemistry Department of the Fritz Haber Institute ...

Researchers from the Inorganic Chemistry Departments of the Fritz Haber Institute revealed how structural changes on the surface and in the bulk region of the cobalt oxide catalyst Co3O4 influence its ...

The employment of readily available alcohols as building blocks in C–C coupling reactions has received great research interest. In particular, the deoxygenative homocoupling of benzyl alcohols is ...

Given the ubiquitous presence of water during catalyst synthesis, storage, and application, interactions between water and molecular sieves, along with their consequent effects on frameworks and ...

Researchers have outlined a bold new roadmap for harnessing heterogeneous catalysis to destroy per- and polyfluoroalkyl substances (PFAS), the so-called 'forever chemicals' that have contaminated ...

The platinum-based catalysts market has experienced robust growth recently, with its value expected to expand from $3.67 billion in 2024 to $3.91 billion in 2025 at a compound ann ...

A Rice University-led team has unveiled how tiny molecular structures on industrial catalysts behave during the manufacture ...

Porous molecular sieve catalysts, including aluminosilicate zeolites and silicoaluminophosphate (SAPO) molecular sieves, are widely used in ...

Transition metals have long been used as catalysts to activate small molecules and turn them into valuable products. However, as these metals can be expensive and less abundant, scientists are ...

A Northwestern University-led international team of scientists has, for the first time, directly observed catalysis in-action at the atomic level. In mesmerizing new videos, single atoms move and ...